AgBr + Ag(NO)3 ----------> Ag+ + Br-
Disregard Ag(NO)3 b/c of the common ion Ag and the fact that (NO)3 is a spectator ion.
You use the Ksp of AgBr from the index in your book that equals 5.0*10^-13
If you look at your above equation, Ksp = [Ag] [Br]
You know Ksp = 5.0*10^-13
You have also been given the concentration of Ag from Ag(NO)3 = 3.0*10^-2. You use this number because remember NO3 is always a spectator ion so [Ag] will equal the [Ag(NO)3]
You equation should look like this. (Forget about doing the I.C.E on this one. Its not necessary.
5.0*10^-13-= [3.0*10^-2] [Br]
Simply solve for [Br] by dividing 5.0*10^-13 by 3.0*10^-2.
[Br] = 1.66*10^-11. Round for sig figs to = 1.7*10-11
Ksp of AgBr is 7.7 × 10−13
The silver in the Silver Nitrate precipitates the chloride ions out of the ammonium chloride solution, leaving Ammonium Nitrate in solution and a Silver Chloride solid.
If the silver nitrate and ammonium chloride are both in solution when mixed, the very sparingly soluble silver chloride precipitates as a solid, leaving ammonium nitrate in the solution.
Silver nitrate + Potassium iodide ----> Silver iodide + Potassium nitrate AgNO3 + KI ----> AgI + KNO3
The molecular formula of silver nitrate is AgNO3. Silver nitrate is extensively used in analytical chemistry as a reagent. You can take silver nitrate solution in a beaker and electrolyze it to get silver in the negative potential.
silver nitrate dissolves in water. so it should form a homogeneous solution
Silver nitrate is not soluble in a sodium chloride solution.
solubility of an ionic compound decreases in the presence of a common ion. A common ion in the solution, that is common to the ionic compound being dissolved. for example the silver ion in silver nitrate solution is common to the silver in silver chloride. the presence of a common ion must be taken into accounts when determining the solubility of an ionic compounds.
Silver Nitrate
No, we cannot stir silver nitrate solution with a copper spoon because , copper is more reactive than silver. Thus,it would displace silver from the silver nitrate solution forming copper nitrate....
No. Iron is a more reactive metal than silver, so the iron will replace the silver in the silver nitrate solution, forming an iron nitrate solution and solid silver. Eventually, the iron container will be gone, its atoms having gone into the iron nitrate solution.
The silver in the Silver Nitrate precipitates the chloride ions out of the ammonium chloride solution, leaving Ammonium Nitrate in solution and a Silver Chloride solid.
The most common one, which can dissolve in water to form a conductive solution, is silver nitrate. All of the silver halides are also ionic compounds, but only the fluoride has substantial solubility in water.
AgNO3
silver nitrate is a compound. it is not a mixture.
Silver nitrate will dissolve in distilled water. When added to a salt solution silver chloride will fall out of solution.
Silver chloride precipitates from the solution.
Zinc nitrate and silver are formed. Silver gets precipitated.